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Community Approaches to Hydrologic Data and Model Sharing using Cloud Resources

Explore the use of cloud resources for sharing hydrologic data and models in a collaborative environment. Learn about the CUAHSI HIS and HydroShare platforms, and the potential of advanced computing capabilities.

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Community Approaches to Hydrologic Data and Model Sharing using Cloud Resources

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  1. Community Approaches to Hydrologic Data and Model Sharing using Cloud Resources David Tarboton, Ray Idaszak, Jeffery Horsburgh, Dan Ames, Jon Goodall, Larry Band, VenkateshMerwade, Alva Couch, Jennifer Arrigo, Rick Hooper, David Valentine http://his.cuahsi.org http://www.hydroshare.org EAR 0622374 (2007-2012) OCI-1148453 (2012-2017) OCI-1148090 (2012-2017)

  2. Outline • Cloud Computing • The CUAHSI HIS • A Services-Oriented Architecture Based System for Sharing Hydrologic Data • HydroShare • A Web-Based Collaborative Environment for the Sharing of Hydrologic Data and Models

  3. What proportion of your research time do you spend on preparing or preprocessing data into appropriate forms needed for research purposes? http://his.cuahsi.org/documents/HISStatusSept15.pdf

  4. Do you have the access or know how to take advantage of advanced computing capability? Researchers • Experimentalists • Modelers HPC Specialists chmod #!/bin/bash vi #PBS -l nodes=4:ppn=8 grep mpiexec awk

  5. Cloud Computing Applications Models Storage Services Computation Wikipedia: Cloud computing is the use of computing resources (hardware and software) that are delivered as a service over a network (typically the Internet) Google, Amazon, Microsoft, Apple, DropBox XSEDE, Condor, BOINC

  6. Cloud Services-Oriented Architecture Paradigm of the World Wide Web Catalog(Google) Crawl and Catalog Search Web Server (CNN.com) Access Browser (Firefox)

  7. CUAHSI Hydrologic Information System: A Services-Oriented Architecture Based System for Sharing Hydrologic Data HydroCatalog Data Discovery and Integration Search Services Metadata Services WaterML, Other OGC Standards HydroServer HydroDesktop Data Analysis and Synthesis Data Publication Data Services

  8. Water quality Water quantity Hydrologic Data Challenges Rainfall and Meteorology Soil water • From dispersed federal agencies • From investigators collected for different purposes • Different formats • Points • Lines • Polygons • Fields • Time Series Groundwater GIS Data Heterogeneity

  9. return request return request NAWQA request return request return NAM-12 return request NWIS return request return request return request NARR Data Searching – What we used to have to do Searching each data source separately Michael Piasecki Drexel University

  10. NAWQA NWIS NARR ODM What CUAHSI HIS enables Searching all data sources collectively GetValues GetValues GetValues GetValues generic request GetValues GetValues Michael Piasecki Drexel University GetValues GetValues

  11. HIS Example. 1. Delineate Watershed using EPA Web Services Uses EPA WATERS Web, Mapping, and Database Services at http://www.epa.gov/waters/geoservices/index.html

  12. 2. Search last 22 years for all data in buffer around watershed

  13. 3. Download and plot data from multiple sources

  14. 4. Analyze with R using the HydroR plugin You have the full analysis capability of R at your fingertips for data from multiple sources accessed using HydroDesktop using the HIS cloud data resources.

  15. CUAHSI HIS: A common window on water observations data for the United States unlike any that has existed before • Storage in a community data model • Publication from a server • Data access through internet-based services using consistent language and format • Tools for access and analysis • Discovery through thematic and geographic search functionality • Integrated modeling and analysis combining information from multiple sources Desktop Catalog Server

  16. Looking to the Future HydroShare - A web-based collaborative environment for the sharing of hydrologic data and models beta.hydroshare.org Can sharing data and models be as easy as sharing photos on Facebook or videos on YouTube? Can finding data and models be as easy as shopping on Amazon?

  17. HydroShare Functionality to be Developed • A new, web-based system for advancing model and data sharing • Sharingfeatures to HydroDesktop • Access more types of hydrologic data using standards compliant data formats and interfaces • Enhance catalog functionality that broadens discovery functionality to different data types • New modelsharing and discovery functionality • Facilitate and ease access to use of high performance computing • New social media and collaborationfunctionality • Linksto other data and modeling systems

  18. Imagine the Possibilities Enabled by Cloud-Based Systems Collaboration Observers and instruments Analysis Data Models Publication, Archival, Curation HydroShare to support integrated collaborative analysis, modeling and data publication

  19. Imagine the Possibilities Enabled by Cloud-Based Systems Discover and Analyze/Model (in Desktop or Cloud) Observe Publish and Catalog Collaboration Observers and instruments Analysis 3 HydroServer (ODM) Data Models 1 2 Publication, Archival, Curation HydroShare to support integrated collaborative analysis, modeling and data publication

  20. Imagine the Possibilities Enabled by Cloud-Based Systems Share the results (Data and Models) Collaboration Observers and instruments Analysis 4 HydroShare resource store Data Models Publication, Archival, Curation HydroShare to support integrated collaborative analysis, modeling and data publication

  21. Imagine the Possibilities Enabled by Cloud-Based Systems Collaboration with group using the cloud system Preparation of a paper Collaboration Observers and instruments 5 Analysis 6 Data Models Publication, Archival, Curation HydroShare to support integrated collaborative analysis, modeling and data publication

  22. Imagine the Possibilities Enabled by Cloud-Based Systems Submittal of paper, review, archival of electronic paper with data, methods and workflow Collaboration Observers and instruments Analysis 7 Data Models Publication, Archival, Curation HydroShare to support integrated collaborative analysis, modeling and data publication DataOne, EarthCube, …

  23. Flow Time Imagine Cloud Modeling • Data: Links to national and global data sets of essential terrestrial variables (e.g. NASA NEX, HydroTerre) t y • Tools to preprocess and configure inputs • Preconfigured models and modeling systems as services (CI-WATER) • Standards for information exchange for interoperability (OpenMI, CSDMS BMI) • Tools for visualization and analysis • Automated reasoning to couple models based on purpose, context, data and resources x

  24. Time Another Example • Big snow year • Will my city flood? • Click to delineate watershed (model domain) • Generate model package from Essential Terrestrial Variables • Generate suite of input scenarios • Execute model and view results P Flow Time

  25. But there is more… What if I could express my decision needs to the system and have it reason and deduce which models need to run, then configure and run them based on the inputs available, precision needs and resources and time available.

  26. Summary and Conclusions • Cloud Computing and Data Services • Community Participation • Interoperability • Standards • Open Development • CUAHSI HIS • Enhanced Access to Hydrologic Data • Combining information from multiple sources • HydroShare • A collaborative website for the sharing of hydrologic data and models • To expand data sharing capability of CUAHSI HIS • Additional data classes • Models, scripts, tools and workflows • To boldly go where no one has gone before

  27. Thanks to a lot of people • USU • RENCI/UNC • CUAHSI • BYU • Tufts • USC • Texas • Purdue • SDSC HydroShare team, CUAHSI HIS team, CI-WATER team, Students and Colleagues (Ray Idaszak, Dan Ames, Jeff Horsburgh, Jon Goodall, Larry Band, VenkateshMerwade, Carol Song, Alva Couch, David Valentine, Rick Hooper, Jennifer Arrigo, David Maidment, Tim Whiteaker, Alex Bedig, Jason Coposky, Pabitra Dash, TianGan, Karl Gustafson, Taehee Hwang, Stephen Jackson, Harry Johnson, Yuri Kim, Phyllis Mbewe, Brian Miles, Jon Pollak, Stephanie Reeder, Terrell Russell, Tom Whitenack, IlyaZaslavsky, Lan Zhao, Michael Piasecki, Kim Schreuders, Jiri Kadlec, Scott Peckham, Chris Duffy, Lorne Leonard, TseganehGichamo, Norm Jones, Fred Ogden, Aaron Byrd) http://www.cuahsi.org/hydroshare.aspx EAR 0622374 (2007-2012) OCI-1148453 (2012-2017) OCI-1148090 (2012-2017)

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